Sheet for wire harness, wire harness, and production method for wire harness

ABSTRACT

Provided is a wire harness sheet that can be stored in an overlapping manner without using release paper and can be wound in a spiral shape around an electric wire bundle. A wire harness sheet  11  includes a first self-adhesive layer  15  of a sheet base material  13,  the first self-adhesive layer  15  being is formed on one surface of a first common region  27,  and the other surface of the first common region  27  becoming a first adhesive layer unformed portion  29;  and a second self-adhesive layer  17  that is formed on at least part of one surface of a second common region  31.

TECHNICAL FIELD

The present invention relates to a sheet for wire harness sheet, a wireharness, and a production method for the wire harness.

BACKGROUND ART

In many cases, a tape is wound around a wire harness including a largenumber of electric wire bundles wired in a vehicle, so as to bundle andprotect the electric wire bundles. In recent years, the tape wrapping isnot used for the reduction of working man-hours. A sheet which is bondedto itself for the bundling and protection of the electric wire bundlesat once is increasingly used (refer to PTL 1).

An adhesive layer is formed on only one surface of the wire harnesssheet. The electric wire bundle is protected by peeling release paperoff the wire harness sheet, by setting the electric wire bundle at adesignated position on the wire harness sheet, and by bonding togetheradhesive surfaces.

A self-adhesive sheet is known as the wire harness sheet, and is bondedto itself when the adhesive surfaces are merely joined together. Theself-adhesive wire harness sheets can overlap each other without usingthe release paper, and the self-adhesive wire harness sheet is notbonded to the electric wire bundles. Accordingly, the self-adhesive wireharness sheet has attracted attention in that the self-adhesive wireharness sheet has good handling properties, workability, andenvironmental protection.

CITATION LIST Patent Literature

[PTL 1] JP-A-11-7856

SUMMARY OF INVENTION Technical Problem

However, as illustrated in FIG. 8, in a self-adhesive sheet 505 in whicha self adhesive 503 is provided on only one surface of a sheet basematerial 501, when the adhesive surfaces are not joined together, it ispossible to bond the self-adhesive sheet 505 to itself. Accordingly, theself-adhesive sheet 505 cannot be applied to a wire harness 509, inwhich the sheet base material is wound in a spiral shape around anelectric wire bundle 507 as illustrated in FIG. 8.

In contrast, as illustrated in FIG. 9, when end edge portions are bondedtogether, it is possible to use the self-adhesive sheet 505 in the wireharness 509. However, it is not possible to use the self-adhesive sheet505 in a routing portion in which a joining margin 511 is not allowed toprotrude.

A double-sided self-adhesive sheet (not illustrated) having the selfadhesives 503 on both surfaces can be wound in a spiral shape asillustrated in FIG. 8 so as to solve the above-mentioned problems.However, there is a problem in that the double-sided self-adhesive sheetcannot be stored in a rolled up manner or an overlapping manner, andmerits of the self-adhesive sheet cannot be utilized.

The present invention is made in light of the problems, and an object ofthe present invention is to provide a wire harness sheet, a wire harnessand a production method for the wire harness, in which the wire harnesssheet can be stored in an overlapping manner without using release paperand can be wound in a spiral shape around an electric wire bundle.

Solution to Problem

The object of the present invention is achieved with the followingconfigurations.

(1) A sheet for a wire harness comprising:

a sheet base material;

a first self-adhesive layer formed on one surface in a first commonregion of the sheet base material, wherein top and back surfaces of thesheet base material in the first common region exactly overlap eachother when the sheet base material is viewed through from top, and theother surface in the first common region is a first adhesive layerunformed portion; and

a second self-adhesive layer formed on at least part of one surface in asecond common region of the sheet base material, wherein top and backsurfaces of the sheet material in the second common region exactlyoverlap each other when the sheet base material is viewed through fromtop, and the first self-adhesive layer is not formed in the secondcommon region.

In the wire harness sheet with the configuration (1), the first andsecond self-adhesive layers are respectively provided on the back andtop surfaces of the sheet base material. However, the first and secondself-adhesive layers are respectively provided in the first and secondcommon regions, the top and back surfaces of which exactly overlap eachother when the sheet base material is viewed through from above, andwhich are located in different positions. Accordingly, even when aplurality of the wire harness sheets are stored in an overlapping mannerin such a manner that the contours of the wire harness sheets arealigned with each other, respective self adhesives of the self-adhesivesheets vertically overlapping each other do not come into contact witheach other, and are not adhesively fixed together.

Since the first and second self-adhesive layers are respectivelypositioned on the back and top surfaces of the self-adhesive sheet, itis possible to adhesively fix together respective overlapping portionsof the first and second self-adhesive layers at a winding end point. Inaddition, the self-adhesive sheet can be wound in a spiral shape.

(2) The sheet for the wire harness according to the configuration (1),wherein

when the sheet base material is viewed through from top, a gap isprovided between the first self-adhesive layer and the secondself-adhesive layer.

In the wire harness sheet with the configuration (2), when the sheetbase material is viewed through from above, the gap is formed betweenthe first and second self-adhesive layers. Accordingly, in a state wherethe respective contours of the plurality of sheet base materials storedin an overlapping manner are not aligned with each other, and deviatefrom each other, when the amount of deviation lies in the gap, the selfadhesives of the sheet base materials vertically overlapping each otherdo not come into contact with each other, thereby being not adhesivelyfixed together. That is, it is possible to easily store the wire harnesssheets in an overlapping up manner by allowing a certain amount ofdeviation during the overlapping of the wire harness sheets.

(3) A wire harness comprising:

a sheet base material;

a first self-adhesive layer formed on one surface in a first commonregion of the sheet base material, wherein top and back surfaces of thesheet base material in the first common region exactly overlap eachother when the sheet base material is viewed through from top, and theother surface in the first common region is a first adhesive layerunformed portion;

a second self-adhesive layer formed on at least part of one surface in asecond common region of the sheet base material, wherein top and backsurfaces of the sheet base material in the second common region exactlyoverlap each other when the sheet base material is viewed through fromtop, and the first self-adhesive layer is not formed in the secondcommon region; and

an electric wire bundle, wherein

the sheet base material is wound around the electric wire bundle, thewinding starts from one end of the sheet base material in a direction inwhich the first self-adhesive layer and second self-adhesive layer arealigned, and the sheet base material is adhesively fixed to itself at awinding end by the first self-adhesive layer and second self-adhesivelayer facing each other.

In the wire harness sheet with the configuration (3), the self-adhesivesheet without using the release paper, being very easy to work with andvery easy to store, can be wound in a spiral shape around the electricwire bundle.

Since the sheet base material can be wound in a spiral shape in such amanner that the self adhesive is not exposed to an outer circumferentialsurface of the wire harness, it is possible to prevent the wire harnessfrom being adhesively fixed to the sheet base material.

(4) A production method for a wire harness in which a sheet for the wireharness is used,

the sheet for the wire harness including:

a sheet base material;

a first self-adhesive layer formed on one surface in a first commonregion of the sheet base material, wherein top and back surfaces of thesheet base material in the first common region exactly overlap eachother when the sheet base material is viewed through from top, and theother surface in the first common region is a first adhesive layerunformed portion; and

a second self-adhesive layer formed on at least part of one surface in asecond common region of the sheet base material, wherein top and backsurfaces of the sheet base material in the second common region exactlyoverlap each other when the sheet base material is viewed through fromtop, and the first self-adhesive layer is not formed in the secondcommon region,

the method comprising:

a step of winding the wire harness sheet around an electric wire bundlefrom a winding start base point which is in the first adhesive layerunformed portion or a second adhesive layer unformed portion which is ona back side of the second self-adhesive layer.

In the production method for the wire harness with the configuration(4), the wire harness sheet without using the release paper can be used.Accordingly, it is not necessary to peel the release paper off the wireharness sheet, and the storage properties, handling properties, andworkability of the wire harness sheet improve.

The wire harness sheet can be environment-friendly since the releasepaper is not required. Since the electric wire bundle is protected, butis not adhesively fixed to the self adhesive, the position of theelectric wire bundle is easily corrected, and the quality of the wireharness improves. The wire harness sheet is wound around the electricwire bundle, having the first or second adhesive layer unformed portionas the winding start base point. Accordingly, the self-adhesive sheetcan be wound in a spiral shape around the electric wire bundle. When thelength of the first self-adhesive layer is different from that of thesecond self-adhesive layer in the parallel direction, the wire harnesssheet can be wound around the wire harness in different patterns bysetting the first or second adhesive layer unformed portion to thewinding start base point.

For example, in the wire harness sheet, the width of the firstself-adhesive layer is set to be smaller than that of the secondself-adhesive layer. When the wire harness sheet is wound around theelectric wire bundle, having the first adhesive layer unformed portionas the winding start base point, the wire harness sheet can be wound ina spiral shape in such a manner that the second self-adhesive layer isnot exposed on the outer circumference. At this time, the adhesivefixing of the first self-adhesive layer and the second self-adhesivelayer is performed only in a single winding.

In contrast, when the wire harness sheet is wound around the electricwire bundle, having the second adhesive layer unformed portion as thewinding start base point, the wire harness sheet can be wound in aspiral shape in such a manner that the second self-adhesive layer isexposed on the outer circumference. At this time, since the firstself-adhesive layer is exposed to the outside at the winding end point,the adhesive fixing of the wire harness sheet to itself can be performedby using multiple-layer winding.

The present invention has been simply described above. When forms forthe implementation of the present invention (hereinafter, referred to asan “embodiment”), which will be described later, are read through withreference to the accompanying drawings, the details of the presentinvention will become further apparent.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1( a) is a plan view of a wire harness sheet according to a firstembodiment of the present invention, and FIG. 1( b) is a side view ofFIG. 1( a).

FIG. 2( a) is a plan view describing a winding start phase in which thewire harness sheet illustrated in FIG. 1( a) is wound around an electricwire bundle, having a second self-adhesive layer as a winding start basepoint. FIG. 2( b) is a plane view describing a winding end phase.

FIG. 3 is a cross-sectional view taken along line III-Ill in FIG. 2( b).

FIG. 4( a) is a plan view describing a winding start phase in which thewire harness sheet illustrated in FIG. 1( a) is wound around theelectric wire bundle, having a first adhesive layer unformed portion asthe winding start base point. FIG. 4( b) is a plane view describing thewinding end phase.

FIG. 5 is a cross-sectional view taken along line V-V in FIG. 4( b).

FIG. 6( a) is a plan view describing a winding start phase in which thewire harness sheet illustrated in FIGS. 1( a) and 1(b) is wound aroundthe electric wire bundle, having a second adhesive layer unformedportion as the winding start base point. FIG. 6( b) is a plane viewdescribing the winding end phase.

FIG. 7 is a cross-sectional view taken along line VII-VII in FIG. 6( b).

FIG. 8 is a cross-sectional view of a wire harness in which a wireharness sheet of the related art includes a self adhesive on only onesurface thereof, and is wound in a spiral shape around the electric wirebundle.

FIG. 9 is a cross-sectional of the wire harness in which the electricwire bundle is protected by bonding together end edge portions of thewire harness sheet of the related art including the self adhesive ononly one surface thereof.

DESCRIPTION OF EMBODIMENTS

Hereinafter, embodiments of the present invention will be described withreference to the accompanying drawings.

As illustrated in FIGS. 1( a) and 1(b), a wire harness sheet 11according to a first embodiment is configured to include a sheet basematerial 13, a first self-adhesive layer 15, and a second self-adhesivelayer 17.

The sheet base material 13 of the wire harness sheet 11 has arectangular shape that is formed by a pair of first side portion 19 andsecond side portion 21 in parallel with each other, and by a third sideportion 23 and a fourth side portion 25 orthogonal to the first sideportion 19 and the second side portion 21. The sheet base material 13can be made of plastic materials, for example, polyolefin resin such aswell-known polyethylene and polypropylene, polyurethane resin,polystyrene resin, acrylic resin, polyvinyl chloride resin, andpolycarbonate resin.

The first self-adhesive layer 15 is formed on one surface (an upper sidein FIG. 1( b)) of a first common region 27, top and back surfaces ofwhich exactly overlap each other when the sheet base material 13 isviewed through from above, and the other surface (a lower side in FIG.1( b)) of the first common region 27 becomes a first adhesive layerunformed portion 29. That is, one surface of the first common region 27becomes the first non-adhesive formation portion 29, and the othersurface becomes the first self-adhesive layer 15. A second self-adhesivelayer 17 is formed on at least part of one surface of a second commonregion 31, top and back surfaces of which exactly overlap each otherwhen the sheet base material 13 is viewed through from above, and inwhich the first self-adhesive layer 15 is not formed. That the secondself-adhesive layer 17 is formed on at least part of one surfaceindicates that the second self-adhesive layer 17 may be formed on theentirety of one surface of the second common region 31. In theembodiment, when the sheet base material 13 is viewed through fromabove, a gap 33 is provided between the first self-adhesive layer 15 andthe second self-adhesive layer 17. That is, in the embodiment, thesecond self-adhesive layer 17 is formed on at least the part of onesurface of the second common region 31.

When the sheet base material 13 is viewed through from above, the gap 33is formed between the first self-adhesive layer 15 and the secondself-adhesive layer 17 of the wire harness sheet 11. Accordingly, in astate where the respective contours of a plurality of the wire harnesssheets 11 stored in an overlapping manner are not aligned with eachother, and deviate from each other, when the amount of deviation lies inthe gap 33, respective self adhesives of the sheet base materials 13vertically overlapping each other do not come into contact with eachother, thereby being not adhesively fixed together. As a result, it ispossible to easily store the wire harness sheets 11 in an overlappingmanner by allowing a certain amount of deviation during the overlappingof the wire harness sheets 11.

The wire harness sheet 11 is a self-adhesive sheet that can be bonded toitself only when the first self-adhesive layer 15 and the secondself-adhesive layer 17 formed on the sheet base material 13 are joinedtogether. A paste or a binding tape is not required, and it is possibleto simply bond the wire harness sheet 11 to itself only by joiningtogether the adhesive surfaces. Furthermore, the first self-adhesivelayer 15 and the second self-adhesive layer 17 of the wire harness sheet11 are special adhesive layers that prevent an electric wire bundle 39or the operator's hands from bonding thereto, and thus the efficiency ofassembly work does not deteriorate. A surface material is laminated onsurfaces of the wire harness sheet 11, which respectively become thefirst adhesive layer unformed portion 29 and a second adhesive layerunformed portion 45 of the sheet base material 13 made of apolypropylene (PP) form material, and the special adhesive layers (thefirst self-adhesive layer 15 and the second self-adhesive layer 17) arelaminated on the other surfaces of the wire harness sheet 11. Thefollowing materials can be used as the surface material: kraft paper, alinerboard, a polyethylene-telephthalate (PET) film, a PP film, anon-woven fabric, and the like. The surface material has longitudinaltensile strength of 49 N/cm width, and a lateral tensile strength of 23N/cm width (per JIS K-6767). The surface material has longitudinalinternal tearing strength of 7.8 N, and lateral internal tearingstrength of 6.8 N (JIS K-6767). The surface material has a moisturevapor transmission rate of 0.0052 g/cm²·24 hrs (FS-101B), and has aninitial adhesive force of 2.5 N/cm width (per a T-type peeling test).For example, it is possible to use Cro-nel (a trademark) made by theCrowell company in the United States or the like as a self-adhesivesheet.

In the wire harness sheet 11 of the embodiment, the length of the firstself-adhesive layer 15 is different from that of the secondself-adhesive layer 17 in a parallel direction (a direction along whichthe first side portion 19 and the second side portion 21 are in parallelwith each other). For example, the length of the first self-adhesivelayer 15 is shorter than that of the second self-adhesive layer 17. Whenthe widths of the sheet base material 13, the first self-adhesivematerial layer 15, and the second self-adhesive layer 17 are C, A, andB, respectively, C is set to be greater than (A+B), and A is set to besmaller than B. Furthermore, when the gap 33 between the firstself-adhesive layer 15 and the second self-adhesive layer 17 has a widthof D, C is set to be equal to A+B+D.

Subsequently, a production method for a wire harness 35 according to thefirst embodiment with the wire harness sheet 11 will be described withreference to FIGS. 2( a) to 3.

It is possible to protect the electric wire bundle 39 by bonding endedge portions of the wire harness sheet 11 to each other. At this time,as illustrated in FIG. 2( a), the wire harness sheet 11 is placed on aworktable (not illustrated) in such a manner that the secondself-adhesive layer 17 becomes a top surface. The electric wire bundle39 is set at the center of the second self-adhesive layer 17 so as to beparallel with the third side portion 23 and the fourth side portion 25.

Subsequently, as illustrated in FIG. 2( b), the electric wire bundle 39is fixed by folding the second self-adhesive layer 17 of the sheet basematerial 13 in half, and by joining together the second self-adhesivelayers 17. As illustrated in FIG. 3, in the wire harness 35 manufacturedin this manner, the end edge portions are bonded together so that anextending piece portion 41 is formed. The first self-adhesive layer 15further extends from the extending piece portion 41. In the wire harness35, the first self-adhesive layer 15 may be cut off.

Subsequently, a production method for a wire harness 43 according to asecond embodiment with the wire harness sheet 11 will be described withreference to FIGS. 4( a) to 5.

In the production method for the wire harness 43 according to the secondembodiment, as illustrated in FIG. 4( a), the same wire harness sheet 11described above is used, and the wire harness sheet 11 is placed on theworktable (not illustrated) in such a manner that the secondself-adhesive layer 17 becomes a top surface. The electric wire bundle39 is set at a right end of the first adhesive layer unformed portion 29so as to be parallel with the third side portion 23 and the fourth sideportion 25.

Subsequently, as illustrated in FIG. 4( b), the wire harness sheet 11 iswound in a spiral shape around the electric wire bundle 39, and theelectric wire bundle 39 is fixed by bonding the wire harness sheet 11 toitself.

At this time, the first non-adhesive layer formation region 29 becomes awinding start base point 37, and the second self-adhesive layer 17 isadhesive to the first self-adhesive layer 15 at a winding end point,while the second self-adhesive layer 17 is wound around the firstself-adhesive layer 15. That is, an outer circumferential surface of thefirst self-adhesive layer 15 on an inner side of the wound wire harnesssheet 11 is set to face an inner circumferential surface of the secondself-adhesive layer 17 on an outer side. As illustrated in FIG. 5, thewire harness 43 manufactured in this manner is wound in a spiral shapein which the first self-adhesive layer 15 and the second self-adhesivelayer 17 are adhesively fixed together at the winding end point.

In the wire harness sheet 11 of the embodiment, the first self-adhesivelayer 15 and the second self-adhesive layer 17 are respectively providedon the back and top surfaces of the sheet base material 13. However, thefirst self-adhesive layer 15 and the second self-adhesive layer 17 arerespectively provided in the first common region 27 and the secondcommon region 31, the top and back surfaces of which exactly overlapeach other when the sheet base material 13 is viewed through from above,and which are located in different positions. Accordingly, even when theplurality of wire harness sheets 11 are stored in an overlapping mannerin such a manner that the contours of the wire harness sheets 11 arealigned with each other, the respective self adhesives of the sheet basematerials 13 vertically overlapping each other do not come into contactwith each other, and are not adhesively fixed together. Since the firstself-adhesive layer 15 and the second self-adhesive layer 17 arerespectively positioned on the back and top surfaces of the sheet basematerial 13, it is possible to adhesively fix together respectiveoverlapping portions of the first self-adhesive layer 15 and the secondself-adhesive layer 17 at the winding end point. In addition, theself-adhesive sheet can be wound in a spiral shape.

In the wire harness 43 of the embodiment, the sheet base material 13 iswound around the electric wire bundle 39, the winding starting from oneend of the parallel direction in which the first self-adhesive layer 15and the second self-adhesive layer 17 are in parallel with each other.In addition, the sheet base material 13 is adhesively fixed to itself atthe winding end point by the first self-adhesive layer 15 and the secondself-adhesive layer 17 facing each other. In the wire harness 43, theself-adhesive sheet without using the release paper, being very easy towork with and very easy to store, can be wound in a spiral shape aroundthe electric wire bundle 39. Since the sheet base material 13 can bewound in a spiral shape in such a manner that the self adhesive is notexposed to an outer circumferential surface of the wire harness 43, itis possible to prevent the wire harness 43 from being adhesively fixedto the sheet base material 13.

Subsequently, a production method for a wire harness 47 according to athird embodiment with the wire harness sheet 11 will be described withreference to FIGS. 6( a) to 7.

In the production method for the wire harness 47 according to the thirdembodiment, as illustrated in FIG. 6( a), the same wire harness sheet 11described above is used, and the wire harness sheet 11 is placed on theworktable (not illustrated) in such a manner that the firstself-adhesive layer 15 becomes a top surface. The electric wire bundle39 is set at a right end of the second adhesive layer unformed portion45 so as to be parallel with the third side portion 23 and the fourthside portion 25.

Subsequently, as illustrated in FIG. 6( b), the wire harness sheet 11 iswound in a spiral shape around the electric wire bundle 39, and theelectric wire bundle 39 is fixed by bonding the wire harness sheet 11 toitself.

At this time, an end (the third side portion 23) of the secondnon-adhesive layer formation region 45 becomes the winding start basepoint 37, and the first self-adhesive layer 15 is adhesive to the secondself-adhesive layer 17 at the winding end point, while the firstself-adhesive layer 15 is wound around the second self-adhesive layer17. That is, the outer circumferential surface of the secondself-adhesive layer 17 on the inner side of the wound wire harness sheet11 is set to face the inner circumferential surface of the firstself-adhesive layer 15 on the outer side. As illustrated in FIG. 7, thewire harness 47 manufactured in this manner is wound in a spiral shape,in which the second self-adhesive layer 17 is exposed on an outercircumference, and in which the first self-adhesive layer 15 and thesecond self-adhesive layer 17 are adhesively fixed together at thewinding end point. At this time, since the first self-adhesive layer 15lies at the winding end point, the adhesive fixing of wire harness sheet11 can be performed by using multiple-layer winding.

In the methods of manufacturing the respective wire harnesses 43 and 47according to the second embodiment and the third embodiment, the wireharness sheet 11 is used, and the wire harness sheet 11 is wound aroundthe electric wire bundle 39, having the first adhesive layer unformedportion 29 or the second adhesive layer unformed portion 45 on a backside of the second self-adhesive layer 17 as the winding start basepoint 37. Accordingly, the self-adhesive sheet can be wound in a spiralshape around the electric wire bundle 39.

In the methods of the manufacturing the wire harnesses 35, 43, and 47,the wire harness sheet 11 without using the release paper can be used.Accordingly, it is not necessary to peel the release paper off the wireharness sheet 11, and the storage properties, handling properties, andworkability of the wire harness sheet 11 improve.

The wire harness sheet can be environment-friendly since the releasepaper is not required. Since the electric wire bundle 39 is protected,but is not adhesively fixed to the self adhesive, the position of theelectric wire bundle 39 is easily corrected, and the qualities of thewire harnesses 35, 43, and 47 improve.

The wire harness sheet 11 is wound around the electric wire bundle 39,having the first adhesive layer unformed portion 29 or the secondadhesive layer unformed portion 45 as the winding start base point 37.Accordingly, the self-adhesive wire harness sheet can be wound in aspiral shape around the electric wire bundle 39. When the length of thefirst self-adhesive layer 15 is different from that of the secondself-adhesive layer 17 in the parallel direction, the wire harness sheet11 can be wound around the wire harnesses 43 and 47 in differentpatterns by setting the first adhesive layer unformed portion 29 or thesecond adhesive layer unformed portion 45 to the winding start basepoint 37.

For example, in the wire harness sheet 11 according to the embodimentsdescribed above, the width of the first self-adhesive layer 15 is set tobe smaller than that of the second self-adhesive layer 17 (A<B). Asillustrated FIGS. 4( a) and 4(b), when the wire harness sheet 11 iswound around the electric wire bundle 39, having the first adhesivelayer unformed portion 29 as the winding start base point 37, the wireharness sheet 11 can be wound in a spiral shape in such a manner thatthe second self-adhesive layer 17 is not exposed on the outercircumference. At this time, the adhesive fixing of the firstself-adhesive layer 15 and the second self-adhesive layer 17 is notperformed.

In contrast, as illustrated in FIGS. 6( a) and 6(b), when the wireharness sheet 11 is wound around the electric wire bundle 39, having thesecond adhesive layer unformed portion 45 as the base point 37, the wireharness sheet 11 can be wound in a spiral shape in such a manner thatthe second self-adhesive layer 17 is exposed on the outer circumference.At this time, since the first self-adhesive layer 15 is exposed to theoutside at the winding end point, the adhesive fixing of the wireharness sheet 11 to itself can be performed by using the multiple-layerwinding, in which the wire harness sheets 11 are wound in multiplelayers.

Accordingly, in the wire harness sheet 11, the wire harnesses 35, 43,and 47, and the methods of manufacturing the wire harnesses 35, 43, and47 according to the embodiments, the wire harness sheet 11 can be storedin an overlapping manner without using the release paper, and can bewound in a spiral shape around the electric wire bundle 39.

Hereinbelow, the characteristics of the wire harness sheet, the wireharnesses, and the methods of manufacturing the wire harnesses accordingto the embodiments of the present invention will be simply summarized inthe following paragraphs (i) to (iv).

[i] A wire harness sheet 11 includes:

a sheet base material 13;

a first self-adhesive layer 15 formed on one surface in a first commonregion 27 of the sheet base material 13, wherein top and back surfacesof the sheet base material 13 in the first common region 27 exactlyoverlap each other when the sheet base material 13 is viewed throughfrom top, and the other surface in the first common region 27 is a firstadhesive layer unformed portion 29; and

a second self-adhesive layer 17 formed on at least part of one surfacein a second common region 31 of the sheet base material 13, wherein topand back surfaces of the sheet base material 13 exactly overlap eachother when the sheet base material 13 is viewed through from top, and ifirst self-adhesive layer 15 is not formed in the second common region31.

[ii] In the wire harness sheet 11 according to [i], when the sheet basematerial 13 is viewed through from top, a gap 33 is provided between thefirst self-adhesive layer 15 and the second self-adhesive layer 17.

[iii] Each of wire harnesses 43 and 47 includes:

a sheet base material 13;

a first self-adhesive layer 15 formed on one surface in a first commonregion 27 of the sheet base material 13, wherein top and back surfacesof the sheet base material 13 in the first common region 27 exactlyoverlap each other when the sheet base material 13 is viewed throughfrom top, and the other surface in the first common region 27 is a firstadhesive layer unformed portion 29;

a second self-adhesive layer 17 formed on at least part of one surfacein a second common region 31 of the sheet base material 13, wherein topand back surfaces of the sheet base material 13 in the second comomonregion 31 exactly overlap each other when the sheet base material 13 isviewed through from top, and the first self-adhesive layer 15 is notformed in the second common region 31; and

an electric wire bundle 39, wherein

the sheet base material 13 is wound around the electric wire bundle 39,the winding starts from one end of the sheet base material 13 indirection in which the first self-adhesive layer 15 and the secondself-adhesive layer 17 are aligned, and the sheet base material 13 isadhesively fixed to itself at a winding end by the first self-adhesivelayer 15 and the second self-adhesive layer 17 facing each other.

[iv] A production method for a wire harness 47 in which a wire harnesssheet 11 is used,

the wire harness sheet 11 including:

a sheet base material 13;

a first self-adhesive layer 15 formed on one surface in a first commonregion 27 of the sheet base material 13, wherein top and back surfacesof the sheet base material 13 exactly overlap each other when the sheetbase material 13 is viewed through from top, and the other surface inthe first common region 27 is a first adhesive layer unformed portion29; and

a second self-adhesive layer 17 formed on at least part of one surfacein a second common region 31 of the sheet base material 13, wherein topand back surfaces of the sheet base material exactly overlap each otherwhen the sheet base material 13 is viewed through from top, and thefirst self-adhesive layer 15 is not formed in the second common region31,

the method including:

a step of winding the wire harness sheet 11 around the electric wirebundle 39 from a winding start base point which is in the first adhesivelayer unformed portion 29 or a second adhesive layer unformed portion 45which is on a back side side of the second self-adhesive layer.

The present invention is not limited to the above-mentioned embodiments.Modifications and improvements can be appropriately made. In addition,insofar as the object of the present invention can be achieved, thematerial, the shape, the dimension, and the disposition location of eachconfiguration element, the number of the configuration elements, and thelike in the above-mentioned embodiments are arbitrarily determined, andare not limited.

The present application claims priority from Japanese Patent ApplicationNo. JP-A-2012-032015, filed on Feb. 16, 2012, the disclosure of which ishereby incorporated into the present application by reference.

INDUSTRIAL APPLICABILITY

In the wire harness sheet, the wire harnesses, and the methods ofmanufacturing the wire harnesses according to the present invention, thewire harness sheet can be stored in an overlapping manner without usingthe release paper, and can be wound in a spiral shape around theelectric wire bundle.

REFERENCE SIGNS LIST

-   11: wire harness sheet-   13: sheet base material-   15: first self-adhesive layer-   17: second self-adhesive layer-   27: first common region-   29: first adhesive layer unformed portion-   31: second common region-   33: gap-   37: winding start base point-   39: electric wire bundle-   45: second adhesive layer unformed portion-   35, 43, and 47: wire harness

1. A sheet for a wire harness comprising: a sheet base material; a firstself-adhesive layer formed on one surface in a first common region ofthe sheet base material, wherein top and back surfaces of the sheet basematerial in the first common region exactly overlap each other when thesheet base material is viewed through from top, and the other surface inthe first common region is a first adhesive layer unformed portion; anda second self-adhesive layer formed on at least part of one surface in asecond common region of the sheet base material, wherein top and backsurfaces of the sheet material in the second common region exactlyoverlap each other when the sheet base material is viewed through fromtop, and the first self-adhesive layer is not formed in the secondcommon region.
 2. The sheet for the wire harness according to the claim1, wherein when the sheet base material is viewed through from top, agap is provided between the first self-adhesive layer and the secondself-adhesive layer.
 3. A wire harness comprising: a sheet basematerial; a first self-adhesive layer formed on one surface in a firstcommon region of the sheet base material, wherein top and back surfacesof the sheet base material in the first common region exactly overlapeach other when the sheet base material is viewed through from top, andthe other surface in the first common region is a first adhesive layerunformed portion; a second self-adhesive layer formed on at least partof one surface in a second common region of the sheet base material,wherein top and back surfaces of the sheet base material in the secondcommon region exactly overlap each other when the sheet base material isviewed through from top, and the first self-adhesive layer is not formedin the second common region; and an electric wire bundle, wherein thesheet base material is wound around the electric wire bundle, thewinding starts from one end of the sheet base material in a direction inwhich the first self-adhesive layer and second self-adhesive layer arealigned, and the sheet base material is adhesively fixed to itself at awinding end by the first self-adhesive layer and second self-adhesivelayer facing each other.
 4. A production method for a wire harness inwhich a sheet for the wire harness is used, the sheet for the wireharness including: a sheet base material; a first self-adhesive layerformed on one surface in a first common region of the sheet basematerial, wherein top and back surfaces of the sheet base material inthe first common region exactly overlap each other when the sheet basematerial is viewed through from top, and the other surface in the firstcommon region is a first adhesive layer unformed portion; and a secondself-adhesive layer formed on at least part of one surface in a secondcommon region of the sheet base material, wherein top and back surfacesof the sheet base material in the second common region exactly overlapeach other when the sheet base material is viewed through from top, andthe first self-adhesive layer is not formed in the second common region,the method comprising: a step of winding the wire harness sheet aroundan electric wire bundle from a winding start base point which is in thefirst adhesive layer unformed portion or a second adhesive layerunformed portion which is on a back side of the second self-adhesivelayer.